Sequence differences between glycosylated and non-glycosylated Asn-X-Thr/Ser acceptor sites: implications for protein engineering

Abstract

By protein engineering we have investigated changes to two amino acid residues (Trp93 and Ser48) in the substrate pocket of yeast alcohol dehydrogenase 1. Upon changing Thr48 to serine we produced an enzyme which has markedly greater activity towards aliphatic alcohols with chain length up to 8, together with a general increase in catalytic activity (V/K). Changes at position 93 were less pronounced, with the Phe enzyme being more active than the parent towards the range of alcohols but with the alanine enzyme showing very little difference from the wild-type. Enzymes with the double changes at 48 and 93 showed increased activity towards alcohols with 3–8 carbons but the increases were not additive over the single changes. The enzymes with changes at the two positions would metabolize both stereoisomers of 2-octanol whereas the parent ADH would attack only one of them. None of the engineered enzymes would attack cyclohexanol or aromatic alcohols. The results are in general agreement with the prediction that reducing the size of amino acids in the substrate pocket would enhance the ability to oxidize alcohols larger than ethanol.